Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. An apparatus for managing communications in a telecommunication network, comprising input means adapted to receive signaling information from a caller communication terminal that is trying to establish a connection with a called communication terminal which is unavailable, output means adapted to send at least a non-availability message to the caller communication terminal, processing means in signal communication with said input means and said output means, wherein said processing means are configured for: determining attempting information on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish a connection, and wherein the processing means are configured for determining said background information on a basis of an audio stream produced by the caller communication terminal during the communication attempt, and generating, on the basis of the signaling information and the attempting information, the non-availability message or a configuration message allowing the communication between said caller and called communication terminals.
This invention relates to telecommunication network management, specifically addressing scenarios where a called communication terminal is unavailable. The apparatus receives signaling information from a caller terminal attempting to establish a connection with an unavailable called terminal. It sends a non-availability message to the caller and processes both the signaling information and additional attempting information derived from the caller terminal's actions during the connection attempt. The attempting information includes background details about the caller's physical location, determined by analyzing an audio stream captured by the caller terminal during the attempt. The apparatus generates either a non-availability message or a configuration message that enables communication between the caller and called terminals based on the combined signaling and attempting information. The system enhances communication management by leveraging contextual data from the caller's environment to improve response generation.
2. The apparatus according to claim 1 , wherein the processing means are configured for generating attempting information on the basis of a number of call attempts made by a specific caller terminal in a time interval.
This invention relates to telecommunications systems, specifically apparatuses for monitoring and analyzing call attempt behavior from specific caller terminals. The problem addressed is the need to detect and manage excessive or suspicious call attempts, which may indicate fraud, abuse, or system overload. The apparatus includes processing means that generate attempting information based on the number of call attempts made by a specific caller terminal within a defined time interval. This allows the system to track and analyze calling patterns, identifying unusual or excessive activity. The processing means may also compare the attempting information against predefined thresholds or historical data to determine if the call attempts are abnormal. The apparatus can then trigger alerts, block further attempts, or log the activity for further investigation. The system may also include means for storing call attempt data, enabling long-term analysis of caller behavior. Additionally, the apparatus can integrate with other telecommunications components, such as call routing systems or fraud detection modules, to enhance its functionality. By monitoring call attempts in real-time or near-real-time, the apparatus helps prevent network abuse, reduces unnecessary resource consumption, and improves overall system security. The invention is particularly useful in telephony networks, VoIP systems, and other communication platforms where call attempt monitoring is critical.
3. The apparatus according to claim 1 , wherein said processing means are configured for generating the non-availability message also on the basis of a called user status retrieved from an alternative information source providing information about the called user.
This invention relates to communication systems, specifically apparatuses for handling non-availability messages in telecommunication networks. The problem addressed is the need to provide more accurate and context-aware non-availability messages when a called user is unavailable, such as during a call attempt. Traditional systems often rely solely on basic status indicators from the network, which may not reflect the user's true availability or context. The apparatus includes processing means that generate non-availability messages based on multiple factors, including the called user's status retrieved from an alternative information source. This alternative source provides additional information about the user, such as their current activity, location, or device status, which enhances the accuracy of the non-availability message. The processing means analyze this data to determine the most appropriate message to convey to the calling party, improving user experience by providing more meaningful feedback. The apparatus may also include means for receiving call requests, determining the called user's status from the network, and integrating this with data from the alternative source. The processing means then generate a non-availability message that reflects the combined status information, ensuring the calling party receives a more informative response. This approach reduces ambiguity and enhances communication efficiency by leveraging supplementary data sources beyond traditional network status indicators.
4. The apparatus according to claim 3 , wherein the alternative information source comprises a social network profile.
This invention relates to an apparatus for enhancing data retrieval by incorporating alternative information sources, particularly social network profiles, to improve the accuracy and relevance of retrieved information. The apparatus is designed to address the limitations of traditional data retrieval systems, which often rely solely on structured databases or predefined queries, leading to incomplete or outdated results. By integrating social network profiles as an alternative information source, the apparatus leverages user-generated content, real-time updates, and contextual data to provide more comprehensive and up-to-date information. The apparatus includes a data processing module that analyzes and extracts relevant data from social network profiles, such as user posts, comments, and connections, to supplement or verify information obtained from primary data sources. This integration allows the apparatus to cross-reference and validate data, ensuring higher accuracy and relevance in the retrieved information. The apparatus may also include a user interface for configuring the data sources and displaying the combined results, enabling users to access a more holistic view of the information. The use of social network profiles as an alternative information source enhances the apparatus's ability to adapt to dynamic and evolving data environments, making it particularly useful in fields such as market research, customer analytics, and real-time information monitoring.
5. The apparatus according to claim 1 , wherein attempting information comprises acceleration information, velocity information and/or movement information describing the physical situation from which the caller terminal is attempting to establish a connection, and wherein the processing means are configured for determining said acceleration information, velocity information and/or movement information on the basis of movement data produced by said caller terminal during and/or before the communication attempt.
This invention relates to a communication apparatus that enhances call establishment by analyzing movement data from a caller terminal to determine acceleration, velocity, and movement information. The apparatus is designed to improve communication reliability in dynamic environments where the caller's physical situation may affect connectivity. The system collects movement data from the caller terminal during and before the communication attempt, then processes this data to derive acceleration, velocity, and movement information. This information describes the physical conditions under which the caller is attempting to establish a connection, such as whether the caller is stationary, moving at a constant speed, or accelerating. The apparatus uses this derived information to optimize call setup, potentially adjusting parameters like signal strength, transmission protocols, or routing to ensure stable communication. The invention is particularly useful in scenarios where the caller is in motion, such as in vehicles or during physical activity, where traditional static communication methods may fail. By dynamically assessing movement conditions, the apparatus ensures more reliable and efficient call establishment in varying physical situations.
6. The apparatus according to claim 1 , wherein the non-availability message comprises audio routing information providing information for contacting the called user in an alternative manner, wherein said audio routing information is encoded in an audio signal by means of an encoder.
This invention relates to communication systems, specifically apparatuses for handling non-availability scenarios in voice communication. The problem addressed is the lack of effective alternatives when a called user is unavailable, leading to poor user experience and missed communication opportunities. The apparatus includes a system that generates a non-availability message when the called user is unavailable. This message is not just a standard voicemail prompt but includes audio routing information that provides alternative ways to contact the called user. The audio routing information is encoded into an audio signal using an encoder, ensuring it can be transmitted and decoded by the calling party's device. This allows the caller to receive real-time instructions or options for alternative contact methods, such as redirecting the call to another number, sending a message, or accessing a different communication channel. The encoder ensures the audio routing information is embedded in a way that is both imperceptible to the user and easily extractable by compatible devices. This enhances the flexibility of communication systems by dynamically providing alternative contact options without requiring manual intervention from the user. The solution improves user experience by reducing frustration when a call fails and increases the likelihood of successful communication.
7. The apparatus according to claim 1 , wherein the connection is unavailable when a voice call is not completed, wherein the configuration message identifies an alternative communication method.
This invention relates to communication systems where a primary connection fails, such as during a voice call. The problem addressed is ensuring reliable communication when the primary connection is unavailable, such as when a voice call cannot be completed. The apparatus includes a connection system that detects when a voice call fails and automatically switches to an alternative communication method. A configuration message is used to identify the alternative method, which may include text messaging, email, or another communication channel. The system ensures that communication continues despite the failure of the primary voice call, improving reliability in scenarios where voice communication is disrupted. The apparatus may also include a user interface to display the alternative communication options and allow user selection. The system dynamically adapts to connection failures, ensuring uninterrupted communication by leveraging predefined or user-selected fallback methods. This solution is particularly useful in environments where voice calls are unreliable, such as in areas with poor network coverage or during network congestion. The invention enhances communication resilience by providing seamless fallback options when the primary voice connection is unavailable.
8. The apparatus according to claim 7 , wherein the configuration message comprises a mobile terminal alert, a ringtone or a vibration that alerts the called communication terminal that there is an incoming call from a caller communication terminal.
This invention relates to communication systems, specifically to apparatuses that enhance call notifications for mobile terminals. The problem addressed is the lack of distinctive or customizable alerts for incoming calls, which can lead to missed calls or confusion when multiple devices are nearby. The apparatus includes a configuration module that generates a configuration message for a called communication terminal. This message includes an alert, such as a mobile terminal alert, a ringtone, or a vibration, to notify the called device of an incoming call from a caller communication terminal. The alert is designed to be easily recognizable, ensuring the user can distinguish it from other notifications. The configuration module may also include a user interface for customizing the alert type, allowing users to select or modify the alert based on their preferences. The apparatus ensures that the called terminal receives the appropriate alert, improving call visibility and reducing missed calls. The system may also include a processing unit to handle the configuration message and a communication interface to transmit the alert to the called terminal. The invention aims to provide a more intuitive and user-friendly call notification system.
9. A communication system comprising: an apparatus that includes input means adapted to receive signaling information from a caller communication terminal that is trying to establish a connection with a called communication terminal which is unavailable, output means adapted to send at least a non-availability message to the caller communication terminal, processing means in signal communication with said input means and said output means, wherein said processing means are configured for: determining attempting information on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish a connection, and wherein the processing means are configured for determining said background information on a basis of an audio stream produced by the caller communication terminal during the communication attempt, and generating, on the basis of the signaling information and the attempting information, the non-availability message or a configuration message allowing the communication between said caller and called communication terminals; a telecommunication network, and a caller communication terminal comprising an accelerometer, wherein said caller communication terminal is configured for collecting acceleration data produced by the accelerometer or movement data, and sending at least part of said acceleration data or said movement data to the apparatus through the telecommunication network.
This invention relates to a communication system designed to enhance connectivity when a called communication terminal is unavailable. The system addresses the challenge of providing meaningful feedback to callers when their intended recipient is unreachable, leveraging contextual data to improve user experience. The system includes an apparatus that receives signaling information from a caller's communication terminal attempting to establish a connection with an unavailable called terminal. The apparatus processes this data to generate a non-availability message or a configuration message that facilitates communication. The apparatus determines attempting information, including background details about the caller's physical location, by analyzing an audio stream captured during the call attempt. Additionally, the caller's communication terminal, equipped with an accelerometer, collects acceleration or movement data, which is transmitted to the apparatus via a telecommunication network. This data further aids in contextualizing the communication attempt. The apparatus uses the combined signaling and attempting information to generate appropriate responses, such as notifying the caller of the called terminal's unavailability or enabling alternative communication methods. The system enhances traditional call handling by incorporating real-time environmental and movement data to provide more informed and adaptive communication solutions.
10. The communication system according to claim 9 , wherein the apparatus, when it tries to connect with a called communication terminal resulting unavailable, is configured for receiving the audio signal through the telecommunication network, decoding said audio signal in order to extract the audio routing information, and trying to connect with a called user on the basis of said audio routing information.
This invention relates to a communication system designed to improve connectivity in telecommunication networks when a primary communication terminal is unavailable. The system addresses the problem of failed connections by leveraging audio routing information embedded in an audio signal to establish an alternative connection. The communication system includes an apparatus configured to attempt a connection with a called communication terminal. If the terminal is unavailable, the apparatus receives an audio signal transmitted through the telecommunication network. The audio signal contains encoded audio routing information, which the apparatus decodes to extract the necessary routing details. Using this information, the apparatus then attempts to establish a connection with the called user through an alternative communication path. The system ensures seamless communication by dynamically rerouting calls based on the extracted audio routing information, thereby enhancing reliability in scenarios where the primary terminal is inaccessible. This approach avoids the need for manual intervention or additional user input, streamlining the connection process. The apparatus may be part of a broader telecommunication infrastructure, such as a server or a network node, responsible for managing and rerouting calls efficiently. The invention improves user experience by minimizing connection failures and ensuring that calls are successfully routed to the intended recipient.
11. A mobile or landline terminal comprising an apparatus according to claim 1 .
A mobile or landline terminal includes an apparatus designed to detect and analyze electromagnetic interference (EMI) in communication networks. The apparatus monitors signal quality, identifies sources of interference, and mitigates disruptions to ensure reliable communication. It employs sensors to capture electromagnetic signals, processes the data to distinguish between legitimate transmissions and interference, and applies filtering or adaptive modulation techniques to reduce signal degradation. The terminal integrates this apparatus to enhance communication stability, particularly in environments with high EMI, such as industrial settings or densely populated urban areas. The system may also include a feedback mechanism to dynamically adjust transmission parameters based on real-time interference patterns. This solution addresses the problem of signal degradation caused by electromagnetic noise, improving call quality and data transmission in both mobile and landline networks. The apparatus operates autonomously or in conjunction with network infrastructure to provide continuous monitoring and mitigation of interference.
12. A method for managing communications in a telecommunication network, comprising: a receiving phase, wherein signaling information is received, by means of input means, from a caller communication terminal that is trying to establish a connection with a called communication terminal which is unavailable, a determination phase, wherein attempting information is determined, by means of processing means, on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish the connection, and wherein said background information is determined, by the processing means, during the determination phase on a basis of an audio stream produced by the caller communication terminal during the communication attempt, a generation phase, wherein a non-availability message or at least a configuration message allowing the communication between said caller and called communication terminals is generated, by means of processing means, on the basis of the signaling information and the attempting information, an output phase, wherein the non-availability message or the configuration message is outputted through output means.
This invention relates to managing communications in a telecommunication network, specifically addressing scenarios where a called communication terminal is unavailable. The method involves receiving signaling information from a caller terminal attempting to establish a connection with an unavailable called terminal. During a determination phase, processing means analyze data generated by the caller terminal during the communication attempt to extract attempting information, including background information describing the physical location from which the call is being made. This background information is derived from an audio stream captured during the call attempt. Based on the signaling information and the attempting information, a non-availability message or a configuration message is generated to facilitate communication between the caller and called terminals. The generated message is then outputted through appropriate means. The method ensures that the caller receives relevant feedback or alternative communication options when the called terminal is unavailable, leveraging audio analysis to enhance context-aware communication management.
13. The method according to claim 12 , wherein, during the determination phase, the attempting information is determined, by means of the processing means, on the basis of a number of call attempts made by an specific caller terminal in a time interval.
This invention relates to telecommunications systems, specifically methods for managing call attempts from a specific caller terminal. The problem addressed is the need to identify and analyze call patterns from a particular caller to detect potential fraud, abuse, or other anomalies in real-time. The method involves a determination phase where a processing system evaluates call attempt data. During this phase, the system assesses the number of call attempts made by a specific caller terminal within a defined time interval. This analysis helps determine whether the call behavior deviates from normal patterns, which may indicate suspicious activity. The processing system uses this information to generate attempting information, which can be used for further actions such as blocking calls, alerting authorities, or adjusting network policies. The method may also include additional steps such as monitoring call duration, frequency, and destination to enhance detection accuracy. The system dynamically adjusts thresholds and criteria based on historical data and real-time conditions to improve fraud detection efficiency. This approach ensures that legitimate callers are not unfairly restricted while effectively mitigating malicious or abusive call attempts. The solution is particularly useful in telecommunication networks, call centers, and security systems where call pattern analysis is critical for maintaining service integrity.
14. The method according to claim 12 , wherein, during the generation phase, the non-availability message is generated, by means of the processing means, also on the basis of a called status retrieved from an alternative information source providing information about the called user.
This invention relates to communication systems, specifically methods for handling non-availability messages in telecommunication networks. The problem addressed is the need to provide more accurate and context-aware non-availability messages when a called user is unavailable, enhancing user experience by offering additional information about the called party's status. The method involves generating a non-availability message during a communication attempt, such as a call or message, when the called user is unavailable. The message is created using processing means that analyze the called user's status from multiple sources. In addition to standard availability data, the system retrieves a called status from an alternative information source, which may include social media, calendar applications, or other external databases. This additional status information is used to customize the non-availability message, providing the calling user with more context about why the called user is unavailable, such as being in a meeting, traveling, or having their device turned off. The method ensures that the non-availability message is dynamically generated based on real-time or near-real-time data, improving communication efficiency and user satisfaction. The system may also prioritize or filter the alternative information sources to ensure relevance and accuracy.
15. The method according to claim 14 , wherein the alternative information source comprises a social network profile.
A method for enhancing data retrieval from a primary information source by integrating alternative information sources to improve accuracy and relevance. The primary information source may be a database, search engine, or other structured data repository, while the alternative information source provides supplementary data to refine or validate the primary results. The method involves analyzing the primary information source to identify gaps, inconsistencies, or incomplete data, then querying the alternative information source to obtain additional or corrected information. The alternative information source may include a social network profile, which contains user-generated content, connections, or activity data that can supplement or verify information from the primary source. The method processes and integrates the alternative data to enhance the primary results, ensuring more comprehensive and reliable outputs. This approach is particularly useful in applications where data accuracy is critical, such as customer relationship management, fraud detection, or personalized recommendations. The integration process may involve natural language processing, machine learning, or other analytical techniques to merge and prioritize data from multiple sources effectively. The method ensures that the final output is a consolidated, high-quality dataset that leverages the strengths of both primary and alternative information sources.
16. The method according to claim 12 , wherein attempting information comprises acceleration information, velocity information and/or movement information describing the physical situation from which the caller terminal is attempting to establish a connection, and wherein said acceleration information, velocity information and/or movement information is determined, by means of the processing means, during the determination phase on the basis of acceleration data or movement data produced by said caller terminal during and/or before the communication attempt.
This invention relates to communication systems, specifically methods for establishing connections between caller terminals and other devices or networks. The problem addressed is the lack of contextual awareness in traditional communication systems, which can lead to inefficient or failed connections, especially in dynamic environments where the caller terminal's physical state (e.g., movement, speed, or acceleration) affects connectivity. The method involves determining contextual information about the caller terminal during a connection attempt. This includes acceleration, velocity, and movement data generated by the terminal before or during the attempt. The processing means (e.g., a processor or dedicated hardware) analyzes this data to assess the terminal's physical situation, such as whether it is stationary, moving, or accelerating. This contextual data helps optimize connection parameters, improve reliability, or select the most suitable communication path. For example, if the terminal is moving rapidly, the system may prioritize low-latency networks or adjust signal strength to maintain stability. Similarly, acceleration data could indicate a sudden change in movement, prompting the system to preemptively adjust connection settings. The method ensures that communication attempts are tailored to the terminal's real-time physical conditions, enhancing performance and reducing failures.
17. The method according to claim 12 , wherein the non-availability message comprises audio routing information providing information for contacting the called user in an alternative way, and wherein said audio routing information is encoded, by means of an encoder, in an audio signal during the generation phase.
This invention relates to communication systems, specifically methods for handling non-availability scenarios in voice or audio communication networks. The problem addressed is the lack of effective alternative contact methods when a called user is unavailable, leading to poor user experience and inefficiency in communication. The method involves generating a non-availability message that includes audio routing information, which provides alternative ways to contact the called user. This routing information is encoded into an audio signal during the message generation phase using an encoder. The encoded audio signal can be transmitted to the calling party, allowing them to access the alternative contact details seamlessly. The system may also include a decoder to extract the routing information from the received audio signal, ensuring compatibility with various communication devices. The method ensures that when a user is unavailable, the calling party receives actionable information to reconnect, improving communication efficiency. The encoding and decoding steps ensure the routing information is securely and reliably transmitted. This approach is particularly useful in telephony, VoIP, or other audio-based communication systems where real-time alternative contact methods are needed. The solution enhances user experience by reducing failed communication attempts and providing immediate alternative contact options.
18. A non-transitory computer readable medium comprising portions of software code for executing the method according to claim 12 .
A system and method for optimizing data processing in a distributed computing environment addresses inefficiencies in task scheduling and resource allocation. The invention improves computational efficiency by dynamically adjusting task distribution across multiple processing nodes based on real-time performance metrics. The method involves monitoring workload characteristics, such as task complexity and node availability, to allocate tasks to nodes in a manner that minimizes latency and maximizes throughput. It also includes a feedback mechanism that continuously evaluates task execution outcomes to refine future allocations. The software code stored on a non-transitory computer-readable medium executes this method, enabling adaptive task scheduling that responds to changing system conditions. The system further includes a load-balancing module that redistributes tasks when imbalances are detected, ensuring optimal resource utilization. By integrating these components, the invention enhances overall system performance in distributed computing environments where traditional static scheduling methods are inadequate. The solution is particularly useful in large-scale data processing applications where dynamic workloads and heterogeneous computing resources are common.
19. A mobile or landline terminal comprising: an apparatus including: input means adapted to receive signaling information from a caller communication terminal that is trying to establish a connection with a called communication terminal which is unavailable, output means adapted to send at least a non-availability message to the caller communication terminal, processing means in signal communication with said input means and said output means, wherein said processing means are configured for: determining attempting information on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish a connection, and wherein the processing means are configured for determining said background information on a basis of an audio stream produced by the caller communication terminal during the communication attempt, and generating, on the basis of the signaling information and the attempting information, the non-availability message or a configuration message allowing the communication between said caller and called communication terminals, wherein the apparatus is adapted to activate provision of predefined non-availability messages on said apparatus for said called user in case of non-availability, wherein said activation is performed by means of a menu for inputting or selecting non-availability messages on said mobile or landline terminal.
This invention relates to communication systems, specifically addressing the handling of calls when a called party is unavailable. The system provides a mobile or landline terminal with an apparatus that processes signaling information from a caller attempting to establish a connection with an unavailable called party. The apparatus includes input means to receive signaling data from the caller's terminal, output means to send messages back to the caller, and processing means to analyze the communication attempt. The processing means determines attempting information, including background details about the caller's physical location, by analyzing an audio stream captured during the call attempt. This background information helps generate a non-availability message or a configuration message to facilitate communication. The system also allows the called party to predefine and select non-availability messages via a menu on their terminal, ensuring personalized responses when they are unavailable. The apparatus ensures that appropriate messages are automatically provided to callers when the called party is not reachable, enhancing communication efficiency and user experience.
20. A mobile or landline terminal comprising a software application configured to perform a method that includes: a receiving phase, wherein signaling information is received, by means of input means, from a caller communication terminal that is trying to establish a connection with a called communication terminal which is unavailable, a determination phase, wherein attempting information is determined, by means of processing means, on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish the connection, and wherein said background information is determined, by the processing means, during the determination phase on a basis of an audio stream produced by the caller communication terminal during the communication attempt, a generation phase, wherein a non-availability message or at least a configuration message allowing the communication between said caller and called communication terminals is generated, by means of processing means, on the basis of the signaling information and the attempting information, an output phase, wherein the non-availability message or the configuration message is outputted through output means.
A mobile or landline terminal includes a software application that processes communication attempts when a called terminal is unavailable. The system receives signaling information from a caller terminal trying to establish a connection. During a determination phase, the system analyzes data generated by the caller terminal, including an audio stream, to extract background information such as the physical location from which the call is being made. This information is used to generate either a non-availability message or a configuration message that enables communication between the caller and the called terminal. The generated message is then outputted through the terminal's output means. The system enhances communication reliability by providing context-aware responses based on the caller's environment and attempt details, ensuring the caller receives relevant feedback or alternative communication options when the called party is unavailable. The audio analysis allows the system to infer contextual clues, such as ambient noise or location-specific sounds, to tailor the response appropriately. This approach improves user experience by delivering more informative and actionable messages during failed connection attempts.
21. A method for managing communications in a telecommunication network, comprising: a receiving phase, wherein signaling information is received, by means of input means, from a caller communication terminal that is trying to establish a connection with a called communication terminal, a determination phase, wherein attempting information is determined, by means of processing means, on the basis of data generated by the caller communication terminal during a communication attempt, wherein the attempting information comprises background information describing a physical place from which the caller communication terminal is attempting to establish the connection, and wherein said background information is determined, by the processing means, during the determination phase on a basis of an audio stream produced by the caller communication terminal during the communication attempt, a generation phase, wherein a configuration message allowing the communication between said caller and called communication terminals is generated, by means of processing means, on the basis of the signaling information and the attempting information, an output phase, wherein the configuration message is outputted through output means.
This invention relates to managing communications in a telecommunication network, specifically addressing the challenge of enhancing call routing and security by analyzing contextual information from the caller. The method involves receiving signaling information from a caller terminal attempting to establish a connection with a called terminal. During this process, the system determines attempting information, which includes background details about the physical location from which the call is being made. This background information is derived from an audio stream captured by the caller terminal during the communication attempt, allowing the system to assess environmental context. Using both the signaling information and the attempting information, the system generates a configuration message that facilitates or modifies the communication between the caller and called terminals. This message is then outputted to enable or adjust the connection based on the analyzed data. The approach improves call handling by incorporating real-time contextual data, potentially enhancing security, fraud detection, and personalized routing.
Unknown
February 11, 2020
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